EP0214574B1

EP0214574B1 - Gravure coating device

Info

Publication number: EP0214574B1
Application number: EP86112011A
Authority: EP
Inventors: Takashi C/O Chigasaki-Factory Iwasaki
Original assignee: Yasui Seiki Co Ltd
Current assignee: Yasui Seiki Co Ltd
Priority date: 1985-09-06
Filing date: 1986-08-29
Publication date: 1992-04-22
Anticipated expiration: 2006-08-29
Also published as: EP0214574A3; DE3684970D1; JPH027663Y2; EP0214574A2; KR900009388Y1; US4791881A; JPS6243675U; US4948635A

Description

FIELD OF THE INVENTION

The present invention relates to a gravure coating device and more particularly a gravure coating device capable of coating a thin web and multi-color coating in a very satisfactory manner.

BACKGROUND OF THE INVENTION:

In general, in the case of applying a coating, for instance, diluted coating and nondiluted coating, to a web of plastic film, paper or cloth, the phenomenon that the coating escapes from the surface being coated to the opposite surface of the web must be prevented.
Therefore so far the coating has been applied only to a portion whose width is shorter than the overall width of the web.
For instance, in the case of coating a web 1 with a wire bar 2 as shown in Fig. 1, reduced-diameter portions or steps 3 are formed at both of the end portions of the wire bar 2 so that the coating width ω of the wire bar 2 is shorter than the overall width W of the web 1.
When the web 1 is sufficiently thick in thickness, no problem arises with the wire bar 2 with the stepped portions 3. But when the web 1 is considerably thin in thickness and, for instance, is 2 - 9 µ in thickness, longitudinal wrinkles are produced on the surface of the web 1 at the portions thereof in contact with both of the stepped portions 3 of the wire bar 2 so that no satisfactory coating can be obtained.
In a prior art gravure coating device of the type shown in Fig. 2, when a coating is applied to a thin web, longitudinal wrinkles are produced on the surface of the thin web. The reason why such longitudinal wrinkles are produced is as follows. A coating applied to a gravure roll 5 is transferred to the under surface of a web 1 which is extended by extension rolls 4 and clamped under a suitable pressure between the gravure roll 5 and a rubber roll 6. As a result, when the web 1 is thin, longitudinal wrinkles are produced on the surface of the web 1 because of the clamping pressure. In Fig. 2, reference numeral 7 designates a doctor blade; and 8, a pan for storing a coating.
The same problem is encountered when a gravure coating device of the type as shown in Fig. 1 of U.S. Patent No. 4,438,695 granted to Maier et.al. and a gravure coating device of the type as shown in Fig. 1 of U.S. Patent No. 4,474,110 granted to Rosner are used.
AU-A-450046 discloses a gravure coating device of the type defined in the pre-characterizing part of claim 1. In this prior art gravure coating device, the rotational speed of the gravure role is fixed to a predetermined value such that a slip may occur between the circumferential surface of the gravure roll and the web. The diameter of the gravure roll is substantially great, ideally, the circumference of the roll is equal to the length of or to a multiple of the length of a section of the web which should be fed to a wrapping station to form one wrapper.
FR-A-2360353 discloses a gravure coating device having a gravure role of a diameter of 50 mm. The web is fed by a take-up reel from a supply reel, wherein the two reels can be moved vertically to bring the web into contact with the gravure role.
The problem underlying the present invention is to provide for a gravure coating device capable of applying a coating to a web without producing longitudinal wrinkles, wherein the smoothness of the coating as well as the thickness of the layer of coating on the web can be simply adjusted depending upon the purpose of coating.
This problem is solved in accordance with the characterizing portion of claim 1. In contrast to the prior art devices, the present invention provides for means for adjustably varying the velocity of the gravure role. Moreover, the gravure role has a relatively small diameter of about 20 mm. Since the velocity of the gravure roll can be varied, smoothness of the coating can be obtained by suitably adjusting the velocity of the gravure role depending upon the purpose of the coating.
The small diameter of about 20 mm is in sharp contrast to conventional prior art gravure roles having large diameters. The gravure roll of the present invention applies a gravure coating to a moving web producing a smooth, uniform coating of superior quality.
Due to the specific features set out in the characterizing part of claim 1, not only smoothing of a coating applied to the web is possible but also a precise control of the thickness of the coating layer on the web.
According to preferred embodiments of the invention, a doctor blade is used to wipe out an excessive amount of coating from the surface of the gravure role immediately before the coating is transferred to the under surface of the web.
A plurality of sets each comprising a gravure roll and a doctor blade is disposed such that the sets can be moved toward and away from the under surface of the web, independently from each other such that coatings of different colours are supplied to respective sets and the coating of various colours can be applied to the web without producing longitudinal wrinkles.

Brief description of the drawings:

Fig. 1: shows a prior art coating process with a wire bar;
Fig. 2: is a side view of a prior art gravure coating device;
Fig. 3: is a longitudinal sectional view of a gravure coating device in accordance with the present invention; and
Fig. 4: is a sectional view, on reduced scale, taken along the line IV-IV of Fig. 3.

DETAILED DESCRIPTION OF THE DRAWINGS:

Figs. 3 and 4 shows a preferred embodiment of the present invention or the best mode for carrying out the present invention.
In this embodiment, a continuous web 11 is transported horizontally from the left to the right in Fig. 3. The web 11 is unwound from a supply roll (not shown) and is extended by means of extension rolls 12 as shown in Fig. 3. Finally, the web is taken up by a take-up roll (not shown). A gravure roll 13 having a relatively small diameter of, for instance, 20 mm is disposed below the web 11 between the extension rolls 12 and is rotatably supported by bearings 16 at its ends which in turn are mounted on a pair of supporting members 15 mounted on a base 14 which is vertically movable by a suitable driving mechanism (not shown). The rotation of a driving motor (not shown) is transmitted through a coupling (not shown) to the gravure roll 13. In this embodiment, the gravure roll 13 is rotated in the direction opposite to the direction of transportation of the web 11 (in the counterclockwise direction in Fig. 3). An engraved portion 17 is formed over the outer cylindrical surface of the gravure roll 13 and is shorter in width than the gravure roll 13. An overflow container 18 is mounted on the base 14 below the gravure roll 13 and is securely held in position by means of a bolt 19. A coating supply nozzle 20 adapted to supply a coating to the gravure roll 13 is securely mounted in the overflow container 18 and is equal in width to the engraved portion 17 as shown in Fig. 4. As best shown in Fig. 3, the supply nozzle 20 comprises a pair of nozzle pieces 20a and 20b which are securely joined to each other at their lower portions with a thin insert 21 interposed therebetween. A coating reservoir 22 which is circular in cross section, is extended in the widthwise direction of the supply nozzle 20 and is adapted to temporarily receive therein the coating supplied from the exterior is defined above the thin insert 21. Since no insert is interposed between the nozzle pieces 20a and 20b above the reservoir 22, an elongated communication groove 23 is defined. A top-open elongated nozzle portion 24 is defined at the upper end of the supply nozzle 20 so that the coating which is supplied from the reservoir 22 through the communication groove 23 may be stored therein and then applied to the engraved portion 17 of the gravure roll 13. The length of the nozzle portion 24 is made equal to the width of the engraved portion 17 of the gravure roll 13 and plug members 28 for controlling the width of the nozzle portion 24 are securely attached to the ends of the supply nozzle 20. A doctor blade 25 is provided which is adapted to wipe out an excessive amount of the coating applied to the engraved portion 17 immediately before the engraved portion 17 applies the coating stored in the nozzle portion 23 to the undersurface of the web 11. The doctor blade 25 is attached to a holder 27 which in turn is pivotally carried by a pivot shaft 26 extended in parallel with the gravure roll 13. The doctor blade 25 has a double function of applying a suitable amount of the coating to the engraved portion 17 over the whole width thereof and wiping out the coating from the portions of the gravure roll 13 extended outwardly beyond the ends of the engraved portion 17.
Next the mode of operation of the gravure coating device with the above-described construction will be described.
First, the web 11 is transported at a predetermined velocity from the left to the right in Fig. 3 and simultaneously the coating is fed from the reservoir 22 through the communication groove 23 into the nozzle portion of the supply nozzle 20 while the gravure roll 13 is rotated in the counterclockwise direction in Fig. 3. Therefore, the lower portion of the engraved portion 17 of the gravure roll 13 is immersed in the coating in the nozzle portion 24 so that the coating is applied to the surface of the engraved portion 17 and approaches the doctor blade 25 as the gravure roll 13 and hence the engraved portion 17 are rotated. In this case, it is preferable that the quantity of the coating fed into the nozzle portion 24 is equal to or slightly greater than the quantity of the coating applied to the engraved portion 17. The coating applied to the engraved portion 17 is wiped out by the doctor blade 25 so that a suitable quantity of the coating remains over the surface of the engraved portion 17 over its whole width. The excessive coating wiped out by the doctor blade 25 is applied again to the engraved portion 17 or flows over the outer surface of the supply nozzle 20 into the overflow reservoir 18 and then into the reservoir 22. When a suitable quantity of the coating is applied to the engraved portion of the gravure roll 13 in the manner described above, the gravure roll 13 is raised in unison with the base 14 so that the engraved portion 17 of the gravure roll 13 is made into contact with the undersurface of the web 11 and consequently the coating applied on the engraved portion 17 is transferred to the undersurface of the web 11. It should be noted that the direction of the transportation of the web 11 and the direction of rotation of the engraved portion 17 are opposite to each other at the line of contact therebetween so that the engraved portion 17 slips relative to the undersurface of the web 11. As a result, the pattern of the engraved portion 17 transferred to the undersurface of the web 11 slips in the direction opposite to the direction of transportation of the web 11 so that the coating is uniformly and smoothly applied to the undersurface of the web 11. The smoothness of the coating is adjusted by varying the relative velocity difference between the web 11 and the gravure roll 13. Therefore, according to the present invention, a smoothing device can be eliminated. In addition, no working rubber roll is disposed in opposed relationship with the gravure roll 13 so that even when the web 11 is thin, no longitudinal wrinkles are produced on the web 11 and the coating can be applied to the undersurface of the web 11 in a very satisfactory manner. Moreover, as compared with a conventional gravure roll whose are of contact with the undersurface of a web is large, the area of contact between the gravure roll 13 and the undersurface of the web 11 becomes extremely small because the diameter of the gravure roll 13 is small so that the contact with and separation from the web 11 of the gravure roll 13 are much facilitated. As a result, not only the position at which the coating is applied to the undersurface of the web 11 but also the position at which the coating operation is interrupted can be precisely controlled. Furthermore, the cost of the gravure roll 13 can be reduced and the gravure coating device can be made compact in size and light in weight as a whole.
In Fig. 3, the gravure roll 13 is rotated in the direction opposite to the direction of the transportation of the web 11, but it is to be understood that the doctor blade 25 is disposed at the opposite position with respect to the gravure roll 13 while the gravure roll 13 is rotated in the clockwise direction in such a way that a relative velocity difference is produced between the web 11 and the gravure roll 13, whereby the coating is smoothly applied to the undersurface of the web 11. In the latter case, when the peripheral velocity of the gravure roll 13 is faster than that of the web 11 and especially when the peripheral velocity of the gravure roll 13 is twice as fast as the velocity of the web 11, the smoothness of the coating applied on the undersurface of the web 11 is considerably enhanced.
When the viscosity of the coating is high, the gravure roll 13 is rotated in the direction opposite to the direction of the transportation of the web 11, but when the viscosity of the coating is low, the gravure roll 13 is rotated in the direction in which the web 11 is transported. In this way, the coating applied to the undersurface of the web 11 becomes satisfactorily smooth. Furthermore when the rotational speed of the gravure roll 13 is so varied that the relative velocity between the web 11 and the gravure roll 13 is adjusted suitably, not only the smoothness of the coating applied to the undersurface of the web 11 is ensured but also the thickness of the applied coating can be adjusted.
In the gravure coating device of the type described above with reference to Figs. 3 and 4, a plurality of webs 11 can be transported through the device and coating of different colors can be supplied for respective webs 11 so that respective webs are coated with the coating agents of different colors, respectively, in a very satisfactory manner.
More particularly, coating in blue, red and yellow are, for instance, fed to three gravure coating devices and the gravure coating devices are maintained at their lowered positions until a portion of the undersurface of the web 11 which must be coated with the coating of a specific color passes the gravure coating devices. When said portion of the web enters one of the gravure coating devices having a specific color coating, the gravure coating device is raised so that the engraved portion 17 of the gravure roll 13 applied with the coating having said specific color is made into contact with the undersurface of the web 11. In this way, the coating having various colors can be applied to predetermined portions of the undersurface of the web 11.
According to the present invention, even when the waiting period is long, a suitable or predetermined quantity of the coating can be fed to the engraved portion 17 by means of the doctor blade 25 when the coating operation is stated so that the phenomenon that the coating is applied too much to the leading portion of the web as in the case of the coating operation with the coating device with a wire bar can be eliminated, whereby the coating can be applied in a uniform thickness to the web.
Multi-color coating can be accomplished by a prior art gravure coating device of the type in which the web is clamped between two rolls as shown in Fig. 2, an offset gravure coating device or a flexographic printing press, but there arises a problem that when a thin web is clamped between the rolls, longitudinal wrinkles are produced on the surfaces of the thin web so that it is difficult to coat the web in a satisfactory manner. In addition, the two rolls must be moved toward or away from each other so that the prior art gravure devices are large in size and complex in construction and expensive to manufacture.
On the other hand, according to the present invention, the gravure coating device capable of multicolor coating can be made simple in construction, compact in size and inexpensive to manufacture. Especially the required installation space and the cost can be reduced to 1/8 to 1/3 of the prior art gravure coating devices.

Claims

A gravure coating device in which a coating material is applied to the undersurface of a travelling continuous web (11), comprising:
- means (12) for continuously advancing the web (11) in extended generally linear disposition;

- a gravure roll (13) for applying the coating while the upper surface of the web proximate the gravure roll (13) is kept free;

- means (20-23) for providing the coating material to the gravure roll (13), and

- means for controlling (15, 25) the amount of coating material on the gravure roll (13) prior to transfer of the coating material from the gravure roll (13) to the web (11),
characterized in that

- means are provided for adjustably varying the velocity of the gravure roll (13) relative to the web velocity, and

- the gravure roll (13) has a relatively small diameter of about 20 mm.
The gravure coating device of claim 1, characterized in that the means for varying the velocity of the gravure roll produces a relative velocity difference between the web (11) and the gravure roll (13), the rotational velocity of the gravure roll at the surface of the gravure roll being faster than the running velocity of the web (11) to control the smoothness of coating applied to the web.
The gravure coating device of claim 1 or 2, wherein a doctor blade (25) is provided for wiping off an excessive amount of the coating from the surface of the gravure roll (13) prior to the transfer of the coating to the web (11).
The gravure coating device of any of claims 1 to 3, characterized in that the gravure roll (13) is disposed so as to be movable toward or away from the under surface of the continuous web (11).
The gravure coating device of any of claims 1 to 4, characterized in that a plurality of gravure rolls and a plurality of doctor blades are independently disposed so as to be movable toward or away from the under surface of the web (11).
The gravure coating device of any of claims 1 to 5, characterized in that the gravure roll or rolls are reversable in rotation.